Traffic control system



Nov. 5; 1935. J. J HUEBSCHER TRAFFIC CONTROL SYSTEM Filed March 2, 1955 5 Sheets-Sheet 1 A Q ENE-:23: III'I GUN-lulu 'INVENTOR J. Huzascmzn I ATTORNEYS JOHN H I WZOW ehoiraucza Nov. 5, 1935.

J. J. HUEBSCHER TRAFFIC CONTROL SYSTEM Filed March 2, 1955 5 Sheets-Sheet 2' R s N C R m In K av N I w J VI B @m hw Nov. 5, 1935.

J, J. HUEBSCHER TRAFFIC CONTROL SYSTEM Filed March 2, 1935 5 Sheets-Sheet 3 R 5 RE Y .3 M 6 0 a JV Ms M s o vm w 3 6 a M m .M I L H w Z O 5 HIPFI 7 5 4 III V1 w -1 5 a B x 4 a a an m w .M &\ ml m I a 6 m M I 3 I, 14/; r M I 1935- J. J. HUEBSCHER TRAFFIC CONTROL SYSTEM Filed March 2, 1935 5 Sheets-Sheet 5 INVENTOR JOHN J. HUEB SCHER By P ATTORNEYS Patented Nov. 5, 1935 PATENT OFFICE rasmc comoi. srs-rm I John J. Huebscher, Minneapolis, Minn.

Application March 2, 1935, Serial No. 9,00: 10 claim. 111-311.!)

This invention relates to new and useful improvements in traiiic control systems generally.

Since theadvent of the high speed automobile, tra flc' control has become one of the most diflicult problems of the present day. Automobiles are now designedto travel 'at extremely high speeds, many being capable oftraveling at from seventy to ninety miies'per hour, with perfect ease and comfort. Itis obvious that when an automobile i is driven at media high rate of speed, particular ly when approaching crossings, villages-and oth er areas,..a ccident-s are likely to. occur because of the inability of the driver to control the car, or

bring it to-aquick stop. should anobject'sudi s denly appear in the path of the vehicl Numerous attempts have heretofore been made to control speeding and reckless driving of automobiles by the use of various types of trafllc con-' trol systems and apparatus, but to the best ofmy knowledge, these have provenunsucces'sful, primarilybecause such systems have depended upon the drivertoheed a dormant warning signal and thereafter retard the. movement of his car, or bring it to a complete stop, if necessary. Many drivers of automobiles have a strong leaning towardsreckl,and to force such drivers to comply with traflic regulations, other steps must be taken. The constantly increasing death toll, and number of persons injured annually, as 3 well as the enormous destructicpof property caused byautomobile accidents, is conclusive evidence that all drivers cannot be depended upon to operate their cars at a speed which may be consideredsaie,regardless of the number of pres- 5 eat day warning signals and signs which may be placed along highways to warn them of dangerous crossings and other areas where carefulness must be exercised.

1 To eliminate such reckless speeding when approaching lined-road hazards, such as curves, blind'corners', railroad grade crossings, and areas or eones'such as rural villages, means must be provided which positively compel all chronic oifenders of to observe such laws, when approaching road and restricted areas, which wiil, if necessary, cause their cars to be brought to a complete stop. It'is therefore, the

brought to a safe speed or a stop, regardless of anyactionsimonthepartoi'thedriver.

Animportant object of the present invention, therefore is to provide an improved trafllc control system which may be used in all locations or areas 5 where traiiic must be controlled, whether it is an approach to a railroad grade crossing, a village along a highway, a school district, or upon entering all cities of first class, at semaphores. or any other area or zone where trailic must. be lim-' ited to ,within a predeterminedspeed' to avoid accidents and assure reasonable and safe speeds A further object of the invention is'to provide a trailic control system which will automatically 5 govern themaximum velocity of cars at any particular point or in any particular zone; which will sound an alarm when a violation occurs; will interrupt" the ignition circuit of the automobile in the event the driver does not retard the speed a of the vehicle tothatallowed within a predetermin'ed district or zone, thereby automatically slowing up or min: the offending car; which will make visible on the windshield, the maximum speed at which the car is capable of travellog, when passing through a restricted area or zone; will permit unlimited speed under all condi tionsrexcept where control is. deemed advisable; can compel stops at railroad grade crossings, or other points where stops are deemed necessary to avoid accidents; and which will enable any city, town, or built up area to control maximum operating speeds within its jurisdiction at very low A further objectis to provide a speed control device conveniently mounted upon the vehicle and having a connection with the usual fuel supply to the engine, such as the carburetor, or the governor used in connection therewith, which may be conveniently operated from the driver's seat 40 to thereby limit the supply of fuel to the engine, whereby the vehicle cannot exceed a predetermined speed, said speed control device being visibly mounted, whereby it may be convenientLv viewed by pedestrians and other drivers to ap- 4s prise them of the maximum speed at whichthe vehicle may be driven.

A further object resides in the provision of a speed control device withinvthe vehicle which is operatively associatedwith the ignition circuit of go the engine and is adapted to be automatically ac- 1 tuated by means in the highway, in the event the automobile travels overa predetermined point in the highway at an excessive or dangerous speed,

whereby e ignition circuit may be automati- I cally interrupted for a predetermined time interval,andatthesametime,analarmissounded within the vehicle, warning the driver that he has committed a traillc violation and thereby all vehicles passing thereover within a predetermined or safe speed, will not be affected thereby, but any vehicle passing thereover at an excessive or dangerous speed will cause said operating devices to function and thereby actuate the speed control device on the oil'ending vehicle, whereby the speed of the vehicle is automatically reduced, and, in some instances, the ignition circuit thereof may be completely interrupted; in the magnetic control means provided in the surface of the highway adapted to automatically actuate the speed control means on the vehicle, in the event the vehicle travels over a certain area at an excessive speed; in the novel construction of the warning signal located at a convenient point along the highway, whereby it may readily be seen by all vehicles traveling over the highway; in the portability and interchangeability of said warning signal, whereby a signal bearing certain information may readily be removed and another one substituted therefor, when it is desired to change the information appearing on the face of the signal, and also whereby the signal may readily be removed for repairs. when necessary; intheprovis'ionofatramccontrolsystemwhich does not, in any way, interfere with or retard the movement of vehicles traveling over a given area or none within a predetermined speed limit, but which will automatically retard or bring to a stop, allvehicles attempting to travel over said givenareaorsoneatanexcessivespeed; inthe means whereby the system may be quickly adapted for manual control, whereby an oiiicer or anthorised person may be stationed along the highway and by the simple manipulation of a small control lever, cause all or any selected vehicle passingoveracertainareaorsone,tobebrought to a stop; and. in the particular construction and arrangement of the various control devices employed in the system, which are of such a nature thattheymayreadilybeinstalled alongahighway at a comparatively small cost.

Other objects of the invention will appear from the following ducription and accompanying drawingsandwillbepointedoutintheannexed claims.

In the accompanying drawings there has been disclosed a structure designed to carry out the various objects of the invention, but it is to be understood that the invention is not confined to the exact features shown as various changes maybemadewithinthesoopeoftheclaimswhich follow.

a In the drawings:

Figure 1 is a schematic view showing the general arrangement of the various control devices along a highway;

Figure 2 is a wiring diagram showing the electrical connections between the various control devices along the highway, and also the electrical connections between the control devices on the vehicle and the ignition circuit of the engine;

Figure'lisaperspectiveviewoftheillumi-l nated panel of the speed control device;

Figure 8 is a diagrammatic view of a conventional automobile showing the relative positions of the control devices thereon;

Figure 9 is a cross-sectional view on the line 1 8-4 of Figure 1, showing the means provided in the surface of the highway adapted to be actuated by the wheels of the vehicle:

Figure 10 is an enlarged cross-sectional view on the line ll-ll of Figure 1, showing the mag- I netic' control device embedded in the surface of the highway:

Figure 11 is a view showing the warning signal removed from its socket:

Figure 12 is a cross-sectional view of the socket s for supporting the warning signal; and

Figure 13 is a view diagr illustrating the invention used in connection with a conventional stop and "go semaphore.

In the selected embodiment of the invention s hereshown,thereisillustratedinFigurel,a portion of a highway. generally indicated by the numeral 2, shown divided longitudinally by a line I, whereby two lanes 4 and i are provided.

Theheavilyshaded portiontattherighthands end of the figure indicates a restricted zone or areainwhichthespeedofalltraflicmustbe sloweddowntoasafespeedmforexample, thirty miles per hour. The remaining portion of the highway represents an unrestricted area over a whichtraflicmaytravelathighspeed.

Systemingeneral Briefly,theprimarypurposeofthepresentinvention is to provide means operable in connection 4:

with a highway or other lane of travel for positively causing all automotive vehicles approaching certain areas or zones, such for example, as railroad grade crossings, school sones, street in tersections, or other areas where it is deemed ti necessary to slow down trailic, which will positively cause all vehicles approaching said restricted areas or sonm, to be retarded or slowed down to within a predetermined safe speed wherebythedrivermayreadilybringhiscartoacom- Diets step, should an obiect suddenly appear in the path before him.

The apparatus herein disclosed 1. adapted for either automatic or manual operation. As illustratedinFigure LitIsshoWncomprisIngapairw of operating generally indicated by thenumeralslandl,embeddedinthesm'face of the highway and extending from one side thereof in a direction crosswise of the highway or road bed, whereby all vehicles traveling in as one direction must pass over them. These operating mechanisms, which will subsequently be described in detail, are en aged by and actuated by the wheels of the vehicle. when the latter over them. If a vehicle passes over these at an excessive speed. they will cause a warning signal, generally indicated by the numeral 0. and stationed at a conspicuous location along the highway, to operate and warn thedriverthatheisapproaching'arestrictedsone m detail in Figures 3 to '1, inclusive.

control is mounted where it may. be conveniently atanexcessiveordangerousspeed, andthat he mustreducehisspeedbeforeenteringtheres stricted'aone.

Acontroidevice il isalsoembeddedinthe surface of the highway, and is located between the operating mechanisms 1 and I and the restricted none 6. This control device operates in conjunction with the operating mechanisms I and 8 to automatically sound an alarmwithin thevehicle,ifthedriver iailstoreducehisspeed when approaching a restricted zone or area, to thereby warn him that he is violatinga traffic law, and in some instances, it may automatically cause the ignition circuit of the engine to be opened, whereby the power of the vehicle is momentarily cut oil, so that the driver must come to a full stop, at or about the time that he reaches the restricted-acne, indicated by the numeral 6.

The manual control, generally indicated by the numeral i2, is preferably located adjacent to the restricted zone, whereby'an omcer or other authorized person may manually control the operation of the magnetic rail H and thereby control the traveling movement of all vehicles approaching the restricted aone, regardless of speed. This manual control may be used only in emergencies, and will be found of particular value when, for some reason, it may be deemed advisable to temporarily halt all vehicles as, for example, when entering or leaving a city. If deemed n, the manual control may be so positioned as to cause the magnetic rail to be energized continuously for days at a. time, which may be found advisable in some instances, and when used with certain types of signals. Ordinariiy,themanual controlisnotused.

Speed control device 13 0ne.of the most important features of the present invention resides in the construction and arrangement of the speed control device, generally indicated by the numeral l2, and shown in This speed operated by the driver of the vehicle, and is operativeiy connected to the usual governor or fuel supply means of the vehicle engine. It is now quite common to provide automobile engineswith means for limiting the fixed supply of fuel thereto, whereby the vehicle cannot be driven beyond a fixed predetermined speed. This fuel control means may be in the form of a governor associated with the usual carburetor oi the englue, or it may consist of an adjustable stop for limiting the movement of the engine throttle. To increase or decrease the maximum speed at which the vehicle may travel, it is necessary to readjust the governor or adjustable stop of the carburetor which, in the past, has necessitated lifting the engine hood and getting out of the vehicle and, with the use of a suitable instrument, readjust said governor or stop. In the structure herein disclosed, the fuel limiting shown in Figure 5. A panel of transparent material such as glass, is supported upon the upright wall ii of the frame It by suitable studs 22, and is shown spaced therefrom by spacing collars 22, whereby the panel 2| is positioned I forwardly of the wall It in spaced parallel relation thereto.

The panel 2! is heavily frosted on both sides, and its upper and lower edges 24 and 2B are similarly frosted, as best shown in Figure "1. Porl0 tions at the end edges 26 are also frosted, as in.- dicated at the left hand side of Figure 7, wherebi unfrosted portions 21 are provided at the upper portions of said end edges for purposes which will subsequently be described. Non-frosted porl8 tions 28 are also provided upon the opposite side faces of the panel 2| and are radially disposed with respect to the upper curve or rounded edge 24, and are equally spaced apart and cooperate to provide a series of speed indicating marks, as M will subsequently be described; a F

Suitable light bulbs 29 and 3| are mounted in sockets 22 and 32, respectively, secured to the rear wall it of the frame It by brackets 24. These sockets are disposed in the medial plane 25 of the panel 2|,asbest shown inFigures4 and 6. Suitable housings 25 are detachably secured to the sockets 22 and 33 and normally completely conceal the light bulbs 28 and ii, as will readily' be understood by reference to Figure 3. A small 50 window or opening 36 is provided in each casing 25, and these openings are alined with the'nonfrosted surfaces 21 of the panel 2 i, whereby when the light bulbs are illuminated. rays of light will be projected therefrom through the windows or 35 open ngs 36 into the panel 2|, thereby illuminating the interior of the panel, whereby the device may readily be seenby the driver, and by pedestrians and approaching motorists, either day or night. The lights 29 and 81 are preferably of 0 different colors as, for example. the light 29 at the left hand side of the instrument, may be yellow or green, while the light 3| at the right hand side is preferably red, or some other clearly visible color.

A suitable arm 21 is loosely mounted upon a fixed shaft or stud 38, and has its upper end oifset and shaped to provide a pointer 39. positioned in close proximity to the panel 2|, whereby it cooperates with the marks 28 on the panel to indicate the position at which the fuel limiting means of the carburetor isset. A suitable connection ill, such as piano wire, operatively connecw the lower end of the arm 31 to the fuel limiting means of the carburetor, generally indicated by the numeral 20 in Figures '2 and 8. The connection it may be supported within a suitable flexible conduit 30. as is common with connections of this type. The arm 31 has a suitable finger grip 4!, whereby it may be conveniently swung from its normal inoperative position, shown in full lines in Figure 3, to an operative position, as indicated in dotted lines in the same figure. To provide a suitable bearing, for the arm 31 upon the stud I8. 65 a bracket 42 is shown suitably secured to the arm which has one end apertured to receive the stud 88, as best shown in Figure 5. The arm 21 is normally retained in the position shown in Figure 3, by the action of a. suitable spring 42, 1 shown coiled about the stud 38 and having one end secured to a ratchet disk 44 by a screw 45, and its opposite end 46 hearing against a. stud li suitably secured to the upright wall ii of the frame It. The disk 44 is suitably secured to the 4 pointer 31 as, for example, by welding, whereby it rotates as a unit therewith.

The means for temporarily locking the arm 31 in adjusted position, as shown in dotted lines in Figure 3, is shown comprising a solenoid coil 48 suitably supported on the rear wall l of the frame I4, and having a wire 43 leading therefrom which may be grounded as diagrammatically illustrated in Figure 2. The other wire 5| of the coil 43 is connected to a terminal 52 which is electrically connected to an arcuately formed bus bar secured to the back face of the disk 44; as indicated'in dotted lines in Figure 3. This bus bar is suitably insulated from the disk 44 to prevent the conduction of current from the bus bar to the disk.

A pawl 54 is mounted for pivotal movement adjacent to the coil 48, and has an endportion 55 overhanging the coil 48 and adapted to be attracted by the core 56 thereof, when the coil is energized, whereby the pawl 54 is moved into peripheral engagement with the disk 44, so that when the arm 31 is rotated in a direction from the full to the dotted line position, shown in Figure 3, the pawl 54 will lockingly engage'the ratchet teeth 50 and-thereby prevent the arm from returning to its normal full line position, shown in Figure 3, during the period that the coil 48 is energized. When the coil 43 is deenergized, the ratchet will drop out of locking engagement with theratchet teeth 50, whereupon the spring 46 will instantly return the arm 37 to its normal full line position shown in Figure 3. In some instances, it may be necessary to provide spring means for positively moving the pawl 54 out of locking engagement with the ratchet teeth 50 when the coil 48 is deenergized.

In Figure 3, I have shown the light bulbs 29 and 3| as being of the single contact type, whereby the base portions thereof are grounded tothe sockets 32 and 33 in the usual manner. To illuminate the light bulbs, the yellow light 29 is shown having a wire 51 leading therefrom to a terminal screw 58 having a spring contact clip 59 secured thereto, one end of which is positioned in the path of the bus bar 53. A similar wire 6| connects the bulb 3| with a terminal 62 having a spring contact clip 63 secured thereto, which has one end positioned in the path of the bus bar 53, as clearly shown in Figure 3. The contact clips 59 and 63 are preferably mounted upon a suitable insulating block 54 which may be secured to the upright wall l5 of the frame l4, and their inner end portions are so disposed with respect to the bus bar 53 that when the arm 31 is in the full line position shown in Figure 3, one end of the bus bar will electrically engage the contact clip 59, whereby current will flow from the bus bar through the wire 51 to the yellow light bulb 29 and thereby illuminate the latter. When the arm is positioned as shown in full lines in Figure 3, it will be noted that the opposite end of the bus bar 53 is out of engagement with the contact clip 63, whereby the red light 3| is extinguished.

To complete the circuit to the solenoid 48, the terminal screw 52 is shown connected by a wire 65 to a wire 66 of the ignition circuit, generally indicated at 61' in Figure 2, and in which 68 indicates the usual distributor and 69 the high tension coil. The usual ignition swi h H is shown interposed in the wire 66, on end of which is electrically connected to a circuit breaker, generally indicated by the numeral 10, and which will subsequently be'described.

Means is provided in the construction of the speed control device l3, whereby whenever said device is actuated and the arm 31 is returned to its ormal position against a suitable stop 16, shown in Figure 3, an alarm is'sounded within the vehicle to warn the driver that he must reduce the speed of his car. Such means is clearly illustrated in Figure 3, and comprises a'small hammer 11 supported on a resilient arm 18 secured to the arm 31, as indicated at 19 in Figure 3. The hammer 11 is adapted to strike a gong 8| secured to the upright wall I! of the frame I 4 by a suitable screw 32. The hammer I1 is so mounted with respect to the gong 8| that when the arm 31 is returned to its normal position against the stop 16 by the spring 43, the hammerwill strike the gong 3| and sound an alarm which may readily be heard throughout the interior of the vehicle, which, as above stated, is a'warning to the driver that the must slow down the speed of his car. The stop 18 is adjustably mounted upon the upright wall I5 by a suitable bolt 33.

A suitable housing 34, having top and end walls 35 and 36, respectively, is secured to the upright wall IE to conceal'the operating parts of the speed control device l3, as will readily be understood by reference to Figures 5 and 6. The housing 34 is shown retained in position by means of a nut 81 received in threaded engagement with the reduced end portion 38 ofv the stud 33. A 0 suitable compression spring 83 is shown interposed between the bracket 42 and the front wall of the housing 34, to thereby retain the arm 31 in proper position upon thestud 38, and whereby the central portion of the inner face of the ratchet disk 44 is supported against a spacing collar 3 I, interposed between said disk and the rear wall I 5 of the apparatuses best shown in Figure 5. The housing 84 has a suitable slot 32 in its upper wall 35 for receiving the arm '31, and whereby the Q latter may be oscillated with respect to the illuminated dial or panel 2 l, as will readily be understood by reference to Figure 6. A suitable slot 4| is also provided in the housing 84 for the handle 4|.

Ignition interrupting nieans Means is provided for momentarily or temporarily interrupting the ignition circuit of the engine, in the event the driver does not slow down to the permitted speed, when the warning signal 3 is sounded, and whereby his car may, in some instances, be brought to a complete stop. The means for thus interrupting the ignition circuit, is diagrammatically illustrated in Figure 2, and comprises a circuit breaker, generally indicated. by the numeral III. This circuit breaker is shown comprising a movable member 12 having its swinging end normally engaging a fixed contact 13 which, in turn, has a wire 14 connecting it to so one side of the usual battery 15 of the vehicle. The other terminal of the battery is shown grounded to the vehicle frame, whereby a complete circuit is provided for the solenoid coil 43 and light bulbs 29 and 3| of the speed control device II. The circuit breaker I0 is mounted upon the vehicle, preferably rearwardly of the front axle, as shown in Figure 8, and may be secured directly thereto, or to some other fixed portion of the vehicle chassis, whereby it may be actuated by the magnetic rail II, as will subsequently be described.

The circuit breaker I0 is shown provided with means for delaying the closing movement of the contact arm 12, when said movable arm has 15 been moved to a circuit opening position. Such meansmayconsistofadashpot 00havlnga spring-actuated plunger 00 therein, and an adlusting screw 00 for controlling the by-passing of the fluid from the upper end of the dashpot to the lower portion thereof. A suitable spring 01 is shown interposed between the plunger 00 andthelowerwallofthedashpotformoving theplunger 30, and therefore the contact arm 12 upwardly. Adjustment of the screw 00 controls the return movement of the contact member 12 to thereby vary the time interval that the ignition circuit is open. A suitable stop 00 is positioned in thepathof the contact arm 12 to limit its downward movement, when said arm is actuated by the'magnetic rail II. The circuit breaker also controls the operation of the speed control device", asw'ill readily be seen by reference to Figure 2, wherein it will be noted that the current supply wire 00 of the device I3 is connected to the wire .00 of the ignition circuit. Thus, each time the circuit breaker 10 is opened, the speed control device I3 is actuated and automatically resets or readjusts the feed supply means of the vehicle engine for a safe speed.

Warning signal 9 The warning signal 0 is briefly illustrated in Figures 1, 2, 11, and 12, and is shown comprising a standard I" having a casing I02 mounted at the upper end thereof, in which is mounted a suitable gong I03 arrangedto be struck by a hammer I00, adapted to be actuated by a solenoid coil I00, diagrammatically illustrated in Figure 2. A light bulb I00 may be provided within the casing I02 for the purpose of illuminating the front face thereof, whereby the information appearing thereon, such as the word "slow, may more readily be seen. The light bulb I00 may be arranged to project its rays against a suitable reflector I00, which, in turn, willproject the light downwardly against the face of the signal 0.

The lower end of the standard III of the signal is shown provided with a depending portion I01 adapted to be removably received in a socket I00 formed in a suitable casting I00, which may be embedded in the concrete or suitably supported along the highway. The socket I00 is provided with suitable electrical connections, not shown, adapted to be engaged by contacts, not shown, on the depending portion I01 of the standard I", so that when the portion I01 is inserted in the socket I00, the warning signal will be operatlveiy and'electrically connected into the system. The specific construction of the warning signal and the supporting means therefor, forms no part of the present invention and it is therefore thought unnecessary to further describe the same herein. The signal 0, however, does form an lmportant'part of the system, as a whole.

Magnetic rail or control 11 v The magnetic rail or control II constitutes another important feature of the traffic control system herein disclosed, and is shown comprising a suitable supporting member III adapted to support a series of magnetic coils H2, each electrlcally connected to a pair of wires H3 and H0. The coils II2 are suitably insulated from the supporting member III, and a suitable plate III of insulating material is seated upon the member III and provides a closure for the coils H2, as clearly illustrated in Figure 10. when the coils "2 are energized, as will subsequently be described, and a vehicle passes over the magnetic rail II, the switch arm 12 of the circuit breaker 10 is attracted thereby and is momentarily pulled out of electrical engagement with the contact 13, thereby breaking the ignition circuit of the engine and, at. the same time, de- 0 energizing the coil 00 of the speed control device I3, whereby the arm 31 of said device is re- .leased, as hereinbefore described. and returns Operating mechanisms 7 and The operating mechanisms 1 and 0 also constitute an important feature of the present control system, and are diagrammatically illustrated in Figures ,1 and 2. These control mechanisms may be similar in construction, audit will therefore be necessary to describe but one in detail. Each of said mechanisms comprises a deformable tube IIO mounted in a suitable support II1 which preferably is embedded in the surface of the highway, as best shown in Figure 9. The tube IIG contains a suitable inelastic liquid I I? such, for example, as glycerine, and is adapted to be actuated or partially compressed 'by the wheels of a vehicle, as the latter pass over the sulip rt I". To protect the tube IIO from the elements, it is shown supported beneath a plate 0, of a suitable flexible or bendable material which has been properly treated to witha stand the elements and rough usage. The plate element H0 is so arranged that when a wheel passes over it, it will yield and thereby partially compress the tube H0.

The terminal "I of the tube IIO abuttingly engages an end wall of the support II1, whereby said terminal cannot expand in a direction longitudinally of the tube, when the latter is compressed by the action of a wheel passing there-, over. The opposite end of the tube is shown sultably secured to a fixed support I22, to which one end of a suitable diaphragm I23 is also secured, the interior of which communicates with themterior of the tube IIO. An actuating rod I20 is secured to the opposite, or movable end of the diaphragm I23 and has secured thereto, in insulated relation, a current conducting section or movable contact I20, best shown in Figure 2. The rod I20 also has an insulated section I20, normally engaged by a pair of flexible contacts so I 21 and I20. A suitable compression spring I29 is shown interposed between the end of the rod I20 and a fixed support I3I, and constantly urges the rod I20 in a direction towards the tube H0, in an attempt to move the insulated section I20 35 of the rod into a position between the contacts I21 and I20, and thereby break the electrical connection between said contacts. The spring I29 also acts to retain the tube H0 in its normal expanded position, as shown in Figure 9. 10

When the tube H0 is depressed or partially collapsed, as a result of a wheel engaging the plate IIO, the liquid H0 in the tube is displaced andthereby causes the diaphragm I23 to elon-. gate, with the result that the rod I20 is moved 7 in a direction away from the tube II5, whereby the current conducting section orcontact I25- nal5andthemagneticrailII,andaresoar-- ranged and interconnected, that it an automobile thereover within a predetermined or safe speed,thewarningsignal Oandmagnetic rail II will not be operated. Should a vehicle. however, pass over the operating 1 and 3 at an excessive or dangerous speed. these mechanisms will automatically render the warning signal I and magnetic rail II operable, whereby the speed control device I3 on the oflending vehicle will be actuated. and thereby cause an alarm to be sounded within the vehicle to warn the driverthatheisexceedingthespeedlimit and, at the same time, the ignition circuit 0! the vehicle engine may be mom tarily opened, whereby the driver receives a te warning that he has committed a traiiic violation and thathemustimmediatelyreducethespeedoihis car or bring it to a complete stop.

Electrical connections between control devices A plurality of time delay switches are shown used in the electrical connections between the operating mechanisms 1 and I, and the warning signal 5, and the magnetic rail II, and are generally indicated in the drawings by reference characters A, B, and ('J. The time delay switch A is shown comprising a solenoid coil I35 which is connected in a wire I33, one end of which is connected to the contact finger I25 01 the operating mechanism 1. and the other end to a wire I35 of a supply circuit I35. The contact finger I21 0! the operating mechanism 1 has a wire I32 connecting it to the conductor I34 0! the supply circuit. The coil I35 has a movable armature I31, one end of which is secured to a bridge member I35 adapted to bridge a gap between the terminals I33 and III of a wire I52, connecting the contact I21 ot.the operating mechanism 5 to the conductor I35 01 the supply circuit I35.

Thecoil I35 orthetimedelayswitchBisconnected in the wire I33 oi the operating mechanism 5, and its armature is provided with a similar bridge member I35 adapted to close the gap between the contacts I35 and Ill of a wire I55, connecting a relay coil its to the conductor I34 01' the supply circuit. The time delay switches Aand B may be oto'rdinary well-known construction,'and each is provided with means for delaying the return movement or the armature I31, after it has been moved into circuit closing position.

The means for thus delaying the return movement of the armature I31 is here shown as com-v g a dash pot I13, which may contain a suitable liquid adapted to be circulated through a small orifice by a plunger secured to the armature I31, during the return movement of said armature, whereby said movement may be retarded to maintain a circuit for a predetermined time interval. It is to be noted that each bridge member I35 is provided with elongated contacts I and I55 adapted to engage the terminals I35 and III or the wires I42 and I45. The

plunger 0! each dash pot may be provided with a suitable valve, not shown, for permitting the liquid to fiow directly therethrough. when the armature is moved into circuit-c1 51 position by energization oi the coil I35, whereby such 5 movement of the armature will not be retarded.

' and whereby the contacts I and I55 are substantially instantly moved into circuit-closing position when the coil I35 is energized. Each dash pot I53 is provided with suitable means 10 such as an adjusting screw I51, for controlling the by-passing or the liquid during the return movement oi the armature I31, whereby the time delay action of each switchmay be accurately controlled. A suitable spring is shown provided 15 in each dash pot for retaining the armature I31 to circuit opening position. These time delay switches, as hereinbeiore stated, may be or any well-known construction and it is therefore to be understood that 1 do not wish to be limited :0 to the particular type herein disclosed.

The relay coil I55 which controls the circuit of the magnetic rail II, is connected in the supply circuit I35 by the wire I and a wire I connected to the conductor I35 or the supplygs circuit I35. The relay coil I43 is normally deenergized because oi! the bridge member I35 oi. the switch B being out 0! electrical onnections with the terminals I55 and ill of the wire I45, as clearly illustrated in Figure 2. A pivoted 30 member I5I carrying a contact I52 is adapted to be actuated by the relay coil I45 when the latter is energized, whereby the contact I52 will bridge the gap between the terminals I53 and I54 0! the wires III and I55, respectively. The 3! wire I55 is shown electrically connected to one end or a suitable resistance element I55 adapted to be engaged by a movable contact I51, shown mounted for swinging movement and adapted to be actuated by the armature I31 of the time 41 delay switch C. The movable contact I51 is electrically connected to a suitable supp y circult, generally indicated by the numeral I55.

The coil I55 and electric light bulb I55 0! the warning signal 5 are shown electrically con- 4. nected in the system by wires I5I and I52, the wire I5I being shown electrically connected to the wire I55 0! the relay coil I45, and the wire I52 to the conductor I35 oi the supply circuit I35.

The operation of the warning signal 5 is con- 5 trolled by the action of the time relay switch B. This switch is normally in the position shown in Figure 2. wherein it will be noted that the circult to the solenoid I55 and light bulb I55 is open, as a result of the bridge member I33 oi the sole- 5 hold switch 3 being out 01' electrical engagement with the contacts I34 and I of the wire I45.

Manual control The manual control is diagrammatically illustrated in Figure 2, and may consist of a suitable rheostat comprising a resistance element I55 having a wire I55 connecting it to the wire II3 of the magnetic rail I I.' A pivoted contact member In has a wire In electrically connecting 11-. m one or the conductors of the supply circuit I55. When the movable contact member I51 01 the manual control I2 is in the full line position shown in Figure 2, no current will flow through 7 the resistance I55. and the manual control therei'ore will have no effect upon the magnetic rail II. The movable switch member I51 is also retained in circuit opening position when the control system is arranged ior automatic operation, 1

I f Fao ome wh the succinct-- t he-man i coils I I2 must pass through the movable contact member -I 51 of,- theqtime r elay= switch C, as readily be understood by rererence toliK re 2. zThO resistance member I" and movable, contact member I,"- ofthe inanual s control I2, are preferably enclos d.-.wii=h na ii te ls ho ms. wh supn te flm a u t b ta d dor secured, to A alongside of the highway, whereby .itmaahe convenientiy operated by an PM or o her au h d sc een. w n i is deemed advisable to. manually; control theoperation ,of. the systems- A suitable cutout switch Iltis ,showninterposed inthe main supply ciri-cuit. I, and may also be located within the housing of the manual .control .l2, so that when it isv deemed advisable to manually control the systcmpthe operatingmechanisms I and I may be rendered entirely inoperative by opening the I main cutout switch I69 v It is to be ,notedthat when the movable contact member 18'! of the manual control H2 and the main cutoutswitch I63 are in circuit opening positions, the entire .system is rendered inoperative; whereby repalrsand adjustments may readily be made. when necessary.

era i 1 I In the installation of the novel trafilc control system herein disclosed; .the various control mechanisms are arranged along the highway in substantially the manner illustrated in Figure 1, although this maybe varied to suit conditions. The spacing between the operating mechanisms I and 4 may vary in accordance with conditions and, in'like manner, the spacing between the operating mechanism! and the magnetic con- -"trol device or rail II mayalso be varied. The control mechanisms I and 8 are so arranged and l timed that if a vehicle passes over said operating'mechanlsms within acertain speed as, for example, thirty miles'per hour, the circuits to the" magnetic rail II andalso the warning signal 8, will not be completed" or closed, whereby 5 these devicesremain inoperative, and the vehicle may then pass on without interruption. This results because the spacing between the operating mechanisms I and B is such that after the wheels of the vehicle have actuated the upn 'erating mechanism 1 and caused-the time relay switch- A to close the-gap between the contacts I" and I of the wire I42, the action of the dash pot of said switch A will-cause ,the bridge member I28 thereof to move out of electrical 5 engagement with the contacts I39 and m of the 'wire I42 before the vehicle wheels engage the flexible tube H6 of the operating mechanism 8.

when this occurs, a circuit cannot be completed to the'relay coil I48 of the magnetic rail circuit, because "thej'W irM-MI of the-operating 1 j mechanism 8 being open, as'a result of the bridge member lddof the time delay switch A being out [of' engagement with the'contacts m and I of the wire I42. Consequently, the magnetic rail II .is notenergized, and therefore has no effect 'uponthe' pivoted arm 12o! the circuit breaker fit on thevehiclej Ontheotherhand, should a vehicle pass over the operating mechanisms 1 0 and, latanexc'essive, or dangerous speed, the "time relay iswitchQBwill close before the switch A opens, ,whereby the relay I,4 8,is instantly energized and causes themovable contact member I I ,Iiitoclose the gap between the contacts I53 and v I i4. tln:re by closing the-circuit to the magnetic coils -I I2 of the magnetic rail I I, so,that whe n the speeding vehicle passes over the magnetic rail, the pivoted switch member. I2 of theft: ciiit breaker on the vehicle will seipuilednownwstd v into circuit opening'positlonfand thereby 'mo- 5 mentarily breakithe ignitionicircuit'oi' the 'engine of the oflendingvehicle. Whenthecircuit breaker is thus opene the sup ly of ,curr'ent to the relay coil 48 (if-the speedjcontrolfdevice I3 is also interrupted, whe eby'lthe'arin 131 is re- ,leased and returns: to its lowjspeed posltion'in engagement with the stop It; when the arinf 31 engages the stop I8, the .hammer TI carried thereby. strikes the song II whereby an alarm issounded to warn the driver that he is driving 15 at a dangerous speed and thathe must apply.

the brakes of his, vehicle and reduce its speed or bring it to a complete stop, as local laws" may require. v L

The dash pot of. the circuit breaker "Ilion go the vehicle may be adjusted to vary the time interval during which the ignitionjcircuit is open. In other words, it may be so adjusted that the ignition circuit may be. temporarily maintained open for one second, or, in' some :5 cases, it may be found desirable to so adjust the circuit breaker that the ignition circuit will be maintained open for a longer interval ofv time. Under ordinary conditions, it is adjusted to only momentarily interrupt the ignition circuit. It is to be understood that the circuit breaker III on the vehicle is not to be tampered with by unauthorized persons, so that when it is desired to vary the timing thereof, the vehicle must be taken to an authorized or licensed'service sta- 85 tion, where adjustments may be made which will comply with local tramc rules and. regulations. The instrument is preferably sealed against opening byunauthorized persons.

In lieu of the dash pot 94 of the circuit 40 breaker, a suitable time delay relay, 'not shown, may be interposed in the ignition circuit which,

upon actuation of the switch arm, I2 by the magnetic rail II, may temporarily delay the closing of the ignition circuit in a manner sim- 5 ilar to the dash pot 94 shown in the drawings. when such a time delay relay is' used, the dash pot 94 is, of course, dispensed with.

Upon energization of the relay I48, as above described, the time delay C-also functions because of its coil I35 being connected directly across the main line circuit I30, when thev bridge member I38 of the switch B is electrically engaged with the terminals l3! and I of the wire",l36 thereof. Such energization of the coil I3G'of; the switch C will cause the arm I51 to be moved to the left, when viewed as shown in" Figure'2, whereby the resistance I56 may becut out of the circuit so that the magnetic coils I I2 of the'rail II are energized ,to their maximum strength. so Should the vehicle pass over thejmagneticfrail' the arm I2 of the circuit breaker 'Ill .is 'pulled downwardly. to the limit of its fopeningfm'ovevment, against the stop 98, whereby-it mayxe-Js qu ire more time to return toitscircuit closing position in. engagement .withthe'" acumen. Should the vehicle retard its movement before it passes over, the control device, I I, thefswitch arm I51 ofthe timedelay'switch .C'w'illfhave ('0 partially returned .to its normal position, as

shown in Figure 2, whereby a portion of the resistance-i will be interposed in the circuitof the-magneticrail'and thereby reducev the inagnetic pull ofitsv coils II2,' wher'eby the I2 is" notpulleddownwardlytothelimitofitsfull movement.

Should the speeding vehicle slow down to'a safe driving speed before passing over the magnetic rail II, the bridge element I of the time delay switch B may return to its normal open position, as shown in Figure 2. before the vehicle passesoverthe rail ii, whereby the relay ill is deenergised, with the result that the contact III moves out of engagement with the contacts Ill and Ill and renders the magnetic rail ll inoperative. When the rail II is thus rendered inoperative before the vehicle passes over it, the circuit breaker 10 on the vehicle is not actuated, and the vehicle may then pass on without interruption, as hereinbefore stated. The rail I I may, however, be so adjusted as to be energized continually, whereby the speed control devices on all cars passing thereover will be operated to limit the speeds of said cars to twenty or thirty miles per hour, should the devices thereon be adjusted for higher speeds.

When the circuit to the relay I" is closed by operation of the time delay switch 18, current is ofthewarningsignalmayreadilybereadbythe driver at all times, regardless of weather conditions. In Figure 11, the warning signal 9 is shown with the word "Slow on the front face thereof. It is to be understood, however, that other information may be provided thereon as, for example, it may indicate the speed limit permitted when entering the restricted zone t.

In the drawings, I have shown the various electrical devices comprising two supply circuits I and I". It is-to be understood that in some installations it may be found advisable to operate all of the various devices from a single supply circuit. In actual practice, however, it may be found that the time delay switches A, B, and C may be operated by a low voltage circuit as, for example, 12 volts, while the circuit for the magnetic control device II is preferably of a higher voltage as, for example, 110 volts. The operation of the entire system, however, will be substantially the same, regardless of whether the various electrical devices are operated from a single supply circuit or from two or more circuits.

The novel traiiic control system, herein disclosed, has been designed to meet all of the requirements of a system of this character. It is simple and economical to install along highways, railroad grade crossings, or street intersections. and is adapted for either automatic or manual operation, as may be deemed desirable.

The speed control device ll, mounted within the vehicle, is of utmost importance, as it provides means for positively controlling the speed of the vehicle when approaching or passing through restricted zones or areas. The manner of iiluminating the panel II will indicate at all times, whether the mechanism of the vehicle is adjusted for safe or fast driving. In other words, when the white or yellow light II is illuminating the panel I, all pedestrians and approaching drivers will know that the governor or fuel supply means of the engine has been adjusted for safe driving.

Whenthepanelltisilluminatedbytherediight, itwillindicatetothe publicthatthecariscapable of driving at speeds which are prohibitive within certain areas.

Another important feature of the speed control device It resides in the fact that regardless of the pontion of the arm I1, whenever the car passes over a magnetic rail II which may be energized, the circuit tothe relay coil ll of the control device II will be temporarily deenergized, which 1 willinstantlycausethearmll toreturntoits normal low speed position against the stop It. whereby the governor or fuel control device 20 is automatically adjusted to limit the speed of the car to thirty miles per hour, or any other mileage l which may be considered safe, and to which the instrument is adjusted. The sounding of the alarm ll within the vehicle, whenever the arm 81 is returned to its normal low speed position, is also of utmost importance in that it will call to i the driver's attention, the fact that he has been exceeding the speed limit, and that he is approaching an area where careful driving must be exercised. Before the driver may again drive his car at a high rate of speed, he must manu-i ally reset the arm 31 of the speed control device II, by swinging it to the right from the full line position shown in Figure 3. Such movement of the pointer will cause the white or yellow light 28 to be rendered inoperative, whereupon the red light Ii is rendered operative to illuminate the panel 2! with a red glow, whereby pedestrians and approaching motorists are apprised that the particular car is capable of traveling at dangerous speeds.-

From the foregoing, it will be noted that the novel traillc control system herein disclosed does not depend entirely upon the driver to retard or slow down his vehicle, when approaching an area or zone along a highway road or street where 4 the speed of the vehicle must be reduced to within a certain limit to avoid accidents. The entire system may be operated automatically, as hereinbefore stated, and will not in any way affect the operation of vehicles traveling within a pre- 4 determined speed limit. It is rendered operative only whenavehicle passesover the operating mechanisms l and l at a speed which is considered excessive and dangerous. When a driver passes over the control devices 1, I, and ii at a high rate i of speed, he is immediately warned of such speeding as a result of the warning signal 8 being set into operation, and if he then immediately reduces the speed of the vehicle to a safe speed,, the magnetic control device-will have no eifect 1 upon the speed control device it of his vehicle, nor the ignition circuit of his engine. If he fails to retard the speed of his vehicle and passes over the control devices at a dangerous speed, the circuit breaker I0 is operated, whereby the ignition i circuit of the engine may be temporarily opened. and, at the same time, the speed control device I! is operated to reset the fuel control means of the vehicle to thereby reduce the speed of the vehicle. i

The control system is to be manually operated as hereinbefore stated, when the control switch I" is open, whereby the operating mechanisms I and I are rendered inoperative. The supply of current to the coils H2 of the magnetic rail II is then obtained through the manual control It, which is manually operated by an oflicer or other authorized person stationed along the highway. When the switch arm I" is in the position shown in Figure 2, all vehicles may pass uninterrupt- 1 edly over the magnetic rail II. should a vehicle a'pproach the restricted-zone at a high-rate of 'aspeed, theoflicer will-move the switcharm lll electrical engagement with the resistance illwhereby the magnetic rail l i is energized,

and will actuate the circuit breaker I. on" the vehicle. .Sueh actuation of the circuit breaker will, as hereinbefore stated, momentarily interrupt the *ignition circuit and, at the same time, cause the'speed control device it toloperthe switch arm it! into direct engagement with the contact "I of the wire I", whereby all of the resistance it! is cut out of the circuit, which will cause the magnetic rail II to become fully energized, with the result that the arm 12 of the circuit breaker is opened to its full opening. Such opening of the contact arm 12 may cause the ignition circuit to be interrupted for fifteen to twenty seconds, depending upon the adjust ment of the circuit breaker. On the other hand, if a vehicle is approaching the restricted zone O at a relatively slower speed, but whose speed is still beyond that permitted by law in the given area or'district, the oillcer may manipulate the control it so as to cause all of the resistance to be whereby but a very slight interruption in the ignition circuit is obtained, which, however, is suillcient to cause actuation of the speed control device ll. The degree of opening of the arm I! of the circuit breaker Ills controlled by the tension in the spring 91 and the eilective magnetic pull of the magnetic rail i l.

From the foregoing, it will be noted that the novel trafllc control system herein disclosed, is applicable for substant ally alikinds of trailic control. able in connection with all vehicles, it is to be understood that all vehicles must be provided with a speed control device It and a circuit breaker 10. These devices are preferably installed upon the vehicle by authorized agents, and are adjusted to meet the requirements of the various local t'ratilc laws and regulations. They are so constructed and arranged that they cannot be readjusted or reset by the driver or other purpose, maybe employed without departing from thescope'of the invention.

In Figure 13, I have diagrammatically shown theinvention' used in connection with a conventionai stop" and "00 sign or semaphore,

such as are commonly employed at street inter-' section's Inthis flg'ure', D represents a street which is intersected by street E; Magnetic rails ii are embedded "in the surface of the pavement at the four approaches' to the semaphore. genengines thereof.

To render this particular system oper-- erally indicatedby the numeral In. These mus so interconnected-with the semaphore'that when the "Go' lights are onto permit trailic to pass through the intersection on-streetl), as indicated :by arrows, themag'netic rails'of street .5

D are deenergized, whereby-they will not 'inter- H i'ere. with the passing of automobilesthereover.

' the "i1! is thus positionedto permit trailic to move through the-intersection on street D, the magneticr'aii's of street I are 10 energized to thereby" cause actuation of the control devices It on all automotive vehicles which may passover these rails when the "Stop" lights are on to temporarily interrupt 'traflic onstreet E at'theintersection. When the -sp'eed l5 device it of a vehicle is actuated by one of the magnetic rails ii, the alarm adjacent the driver's seat is sounded, whereu'ponj the driver is warned that he must stop his carbeforeentering the intersection against thef'fltop light;

when the semaphore l'llsubsequently'changes to permit trailicto pass through the intersection on street E the magnetic rails ll of street D become energized. whereby the speed control devices it onall vehicles attempting 'to enter 5 the intersection with the fStop" lights against them, may be automatically interrupted because of the magnetic rails ll of street D causing the speed control devices 'i3 on all such vehicles to operate and reduce the fuel supplied to the Many 8i'op" and "Go" semaphores are now provided with a warning or change light which ismomentarily on, when changing from one signal to another, and which functions to warn drivers and pedestrians that the semaphore is" about to change. The magnetic rails are. preferablyso interconnected in the electric circuit 'of the semaphore, that when the warning light, which is usually of another color, such as yel- 40 low, flashes on to indicate that the semaphore is about to change its the magnetic rails on the street upon which traillc is about to be opened, will be deenergized, and, at the same instance, the magnetic rails on theother street I upon which trafllc isabout to be interrupted, will become energized.

" By this arrangement, it will readilybe seen that a driver'of an automobile cannot readily accidentally pass through an intersection, if the Stop" signal is against him, for the reason that the speed control device ll of his car will be operated to warn him that hemust slowdown or stop hls'car. If found desirable, the ignition circuit may be connected in the circuit of the speed control device ll, whereby each time the circuit-breaker III is operated by the influence of one of the magnetic rails II, the ignition circuit will be momentarily or temporarily opened to positively warn the'driver that he must slow down the movement of his car or in v bring it to a complete'stop. I

A suitable control box III is preferably provided at a suitable location with respect to the semaphore I12, whereby an ofilceror other au-' thorized person may render. any one or all of said magnetic rails il inoperable, should it be deemed advisable, and, whereby the magnetic rails may also be manually controlled, if desired.

In Figure 13, I have not'shown the electrical connections between the various magnetic rails II and the semaphore I12, as it is obvious that the magnetic rails may'readily be electrically connected to the sempahore in a manner to cause them to operate as herein described, and it is 1 therefore thought unnecessary to herein illustrate these connections in detail.

I claim as my invention:'

1. An automobile speed control device comprising a movable member adapted to be located convenient to the driver's seat and having an operative connection with the automobile engine to control the amount of fuel fed to the engine, said movable member normally occupying a low speed" position to permit a relatively small amount of fuel to be fed to the engine but being movable manually to a higher speed position to permit a greater amount of fuel to be fed to the engine up to that giving the said higher speed, means for retaining said movable member in said higher speed position, a control element carried by the automobile and adapted to be actuated by an external force, and means connecting said control element to said retaining a means so that when said control element is actuated said retaining means is released to permit said movable member to return to normal low speed" position.

2. An automobile speed control device comprising amovable member adapted to be located convenient to the driver's seat and having an operative connection with the automobile engine to control the amount of fuel fed to the engine, said movable member normally occupying a low speed" position to permit a relatively small amount of fuel to be fed to the engine but being manually movable to a higher speed position to permit a greater amount of fuel to be fed to the engine up to that giving the higher speed, electromagnetic means for retaining said movable member in said higher speed position, a control element carried by the automobile and adapted to be actuated by an external force, and an electric circuit operated by said control element and including said electromagnetic means so that when said control element is actuated said electromagnetic means is released to permit said movable member to return to normal "low speed" position.

3. An automobile speed control device comprising a movable member adapted to be conspicuously mounted upon the automobile so that it may be readily seen from the interior and ex- -terior of the automobile, said movable member having an operative connection with the automobile engine to control the amount of fuel fed to the engine, indicating means associated with said movable member for indicating the maximum speed at which the automobile may be driven, said movable member normally occupying a "low speed position to permit a relatively small amount of fuel to be fed to the engine but being movable manually to a higher speed position to permit any desired greater amount of fuel to be fed to the engine up to that giving the said higher speed, electromagnetic means for retaining said movable member in said higher speed position, a control element carried by the automobile and adapted to be actuated by an external force, and an electric circuit operated by said control element and including said electromagnetic means so that when said control element is actuated said electromagnetic means is released to,permit said movable member to return to normal "low speed" position.

4. An automobile speed control device comprising a movable member adapted to be conspicuously mounted upon the automobile so that it'may be readily seen from the interior and exterior of the automobile, said movable member having an operative connection with the automobile engine to control the amount of fuel fed to the engine, indicating means associated with said movable member for indicating the maximum speed at which the automobile may be 4 driven, said movable member normally occupying a "lowspeed position to permit a relatively small amount of fuel to be fed to the engine but being movable manually to a higher speed position to permit any desired greater amount of u fuel to be fed to the engine up to that giving the said higher speed, electromagnetic means for retaining said movable member in said higher speed position, a control element carried by the automobile and adapted to be actuated by an ii external force, an electric circuit operated by said control element and including said electromagnetic means so that when said control element is actuated said electromagnetic means is released to permit said movable member to reat turn to normal "low speed" position, an audible signal means associated with said device, and means for sounding said signal upon the return of said movable member from a higher to said "low speed" position. it:

5. An automobile speed control device comprising a movable member, said movable member having an operative connection with the automobile engine to control the amount of fuel fed to the engine, indicating means associated with said 311 movable member adapted to be conspicuously mounted upon the automobile so that it may be readily seen from the interior and exterior of the automobile: for indicating the maximum speed at which the automobile may be driven, said movan able member normally occupying a "low speed" position to permit a relatively small amount of fuel to be fed to the engine but being manually movable to a higher speed position to permit any desired greater amount of fuel to be fed to the an engine up to that giving the said higher speed. electromagnetic means for retaining said movable member in said higher speed position, a control element carried by the automobile and adapted to be actuated by an external force, a pair of conu tacts adapted to be opened and closed by said control element, and an electric circuit connecting said contacts with said electromagnetic retaining means so that when said control element is actuated said electromagnetic retaining means is rel0 leased to permit said movable member to return to normal "low speed" position.

6. An automobile speed control device comprising a movable indicator adapted to be located convenient to the-driver's seat and movable over 85 a panel to indicate the maximum speed at which the automobile may be driven, said panel and indicator being adapted to be conspicuously moimted so that it may be readily seen from the interior and exterior of the automobile, said indicator having an operative connection with the automobile engine to control the amount of fuel fed to the engine, said movable indicator normally occupying a "low speed" position to permit a relatively small amount of fuel to be fed to the engine .5 but being movable manually to a higher speed position to permit a greater amount of fuel to be fed to the engine up to that givingthe said higher speed, electromagnetic means for retaining said movable indicator in said higher speed position, 7 a magnetically operated control element carried by the automobile and adapted to be actuated by an external magnetic force, contacts adapted to be opened and closed by said control element, means connecting said contacts to said electromagnetic I retaining means so that when said control eleis said electromagnetic retaining meansis. releasedto permit; said-movable indicator is returnto normal ,low speed" position. 7 r e Anautomobile speed control device vcomprising a adapted to be located, convenient to the driver-Y's seat and inra'conspicuous position so tion with the automobile engine to control the amount otfuel fed to the engine.'said movable indicator occupying a. .low speed posi- 1 tion on said panel to permit a relatively small amount of fuel to be fed to the engine but being movable over said panel to a higher speed position to permit a greater amount of fuel tobefed to the engineup tothat giving the higher speed, electro-magnetic means for retaining said .movable indicator in said higher speed position, a control element carried by the automobile and engine, visual indicating means associated with said movable member adapted to be conspicuously mounted upon the automobile so that it may be 'readilyseen from the interior and exterior of the automobile for indicating to those inside and outside the automobile the speed at which the automobile may be driven, said movable member normally occupying a low speed position to permit a relatively small amount of fuel to be fed to the engine but being movable manually to a higher speed position to permit any desired greater amount of fuel to be fed to the engine up to that giving the said higher speed, electromagnetic means for retaining said movable member in said higher speed position, a control element carried by the automobile and adapted to be actuated by an external force, an electric circuit operated by said control element and including said electromagnetic means and the engine ignition circuit so that when said control element is actuated said electromagnetic means is released to permit said movable member to return to normal low speed" position and said engine ignition circuit is interrupted 9. An automobile speed control device comprising a movable member, having an operative connection with the automobile engine to control the amount of fuel fed to the engine, indicating lights associated with said movable member and adapted to be conspicuously mounted upon the automobile so that they may be readily seen from the interior and exterior of the automobile for indicating the speed at which the automobile may be driven, said movable member normally occupying a "low speed" position to permit a relatively small amoimt of fuel to be fed to the engine but being movable manually to a higher speed position to permit any desired greater amount of fuel to be fed to the engine up to that giving the said higher speed, means for energizing said lights separately in accordance with the position of said movable member, electromag- 1, ne tic means for retaining said movable memberin saidhigher speed. position, a control elementcarried'by the automobile and adapted tov be actuated by an external'force, and an electric circuit connectingzsald control element and includingsaid 5 electromagnetic meansso that when said control element is'a'ctuated said electromagnetic means is released to permit said movable member to refiturn-to normalilow speed" position. a 10. An autoinobilespeed control device comprising a movable member havingan operative i connection. with the automobile engine to control the amount of fuel fed to the engine, indicatinglights associated with said movable member adapted to be conspicuously mounted upon the automobile so that they maybe readilyseen from the interior and exterior of the automobile for indicating the speed atwhich the automobile may be driven, said movable member normally occupying a low speed" position to permit a relatively small amount of fuel to be fed to the engine but being movable manually to a higher speed position to permit any desired greater amount of fuel to be fedto the engine up to that giving said higher speed, means for energizing said lights separately in accordance with the position of said movable member, means for retaining said movable member in said higher speed position, a control element carried by the automobile and adapted to be actuated by an external force, an electric circuit operated by said control element and including said retaining means so that when said control element is actuated said retaining means is released to permit said movable member to return to normal low speed" position, an audible signal means associated with said device, and means for sounding said signal upon the return of said movable member from a higher to said low speed position.

11. An automobile speed control device comprising amovable member, having an operative connection with the automobile engine to control the amount of fuel fedto the engine, a plurality of different colored lights associated with said movable member and adapted to be energized individually to indicate the speed at which the automobile may be driven, said lights being adapted to be consp'cuously mounted upon the automobile so that they may be readily seen from the interior and exterior of the automobile, said movable member normally occupying a "low speed position to permit a relatively small amount of fuel to be fed to the engine but being manually movable to a higher speed position to permit any desired greater amount of 5 fuel to be fed to the engine up to that giving the said higher speed, means for energizing said lights individually in accordance with the position of said movable member, means for retaining said movable member in said higher speed position, a con- 00 trol element carried by the automobile and adapted to be actuated by an external magnetic force,

a pair of contacts adapted to be opened and closed by said control element, and an electric circuit operated by said contacts and including said re- 5 taining means so that when said control element is actuated said retaining means is released to permit said movable member to return to normal low speed position.

12. An automobile speed control device comprising a movable member adapted to be located convenient to the driver's seat and having an operative connection with the automobile engine to control 'the amount of fuel fed to the engine, said movable member normally occupyin a low 76 13. In a traiilc control system for automobiles. a speed control device on the vehicle including a member having an operative connection with the fuel supply of the vehicleengine for varying the amount of fuel fed to the engine, said member normally occupying a "low speed position to feed a relatively small amount of fuel to the engine but being movable manually'to a higher speed po-' sition to permit any desired greater amoimt of fuel tobe fedtotheengineuptothatgivingthesaid higher speed, means for retaining said movable member in said higher speed position, a control element carried by the vehicle and adapted to be actuated by an external force, and means connecting said control element to said retaining means so that when said control element is actuated said retaining means is released to permit said movable member to return to normal "low speed" position and thereby reduce the amoimt of fuel fed to the engine.

14. In a traffic control system for automobiles, a speed control device on the vehicle including a member having an operative connection with the fuel supply of the vehicle engine for varying the amount of fuel fed to the engine, said member normally occupying a low speed" position to feed a relatively small amount of fuel to the engine but being movable manually to a higher speed position to permit any desired greater amountof fuel to be fed to the engine up to that giving the said higher speed, signal means visible to the driver and to others not in the automobile indicating whether the automobile may be driven fast or slowly, means for retaining said movable member in said higher speed position, means for operating the corresponding higher speed signal. a magnetically actuated control element carried by the vehicle andadaptedtobeactuatedbyanexternalmagnetic force. means operatedbysaidcontrol element andincludingsaidretainingmeanssothatwhen said control element is actuated said retaining means isroleased topermit saidmovable'member to return to normal "low speed" position and operating the corresponding low speed signal. v

15. In a traillc control system for automobiles, a speed'control device on the vehicle including a member having an operative connection with the toe! supply of the vehicle engine for v rying the 1 amountoffuelfedtotheenginasaldmember normally occupying a "low speed" position to feed a relatively small amount of fuel to the engine but being movable manually to a higher speed position to permit any desired greater amount of fuel it to'befedtothecnaineuptothatgivingthesaid higher speed. signal means visible and audible to the driver and visible to others not in the automobile to indicate whether the automobile may be driven fast or slowly, means for retaining said 2i movable member in said higher speed position, a magnetically actuated control element carried by the vehicle and adapted to be actuated by an external force, means connecting said control element to said retaining means so that when said 2 control element is actuated said retaining means is released to permit said movable member to return to normal "low speed" position and operate said signal means and momentarily sound the audible signal.

v 16. In a traflic control system for automobiles, a speed control device on the vehicle including a member having an operative-connection with the fuel supply of the vehicle engine for varying the amount of fuel fed to theengine, said member normally occupying a "low speed" position to feed a relatively small amount of fuel to the engine but being movable manually to a higher speed position to permit any desired greater amoimt of fuel to befedtotheengineilntothatgivingthesaidlu higher speed, indicating lights associated with said movable member for indicating the speed at which the automobile may be driven, means for retaining said movable member in said higher speed position, a magnetically actuated control element car- 45 ried by the vehicle and adapted to be actuated by an external magnetic force, means for energizing said lights separately in accordance with the position of said movable member; and means connecting said control element to said retaining means so that when said control element is actuated said retaining means is released to' permit said movablemembertoreturntonormal owspeed position.

JOHN J. HUirBscmm. 

